Artificial toe joint

ABSTRACT

An artificial toe joint utilizes a ball in socket joint structure and arms or side walls which are exterior to the bone. The resulting joint provides improved strength and durability, and may be used to repair joints which are not suitable for installation of a prior art artificial joint.

RELATED APPLICATIONS

The application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/889,195, filed Feb. 9, 2007, which is incorporated herein in its entirety by reference.

BACKGROUND OF THE INVENTION

1. The Field of the Invention

The present invention relates to an improved artificial toe joint. More specifically, the present invention relates to an artificial toe joint providing increased durability and reduced damage to the surrounding bone.

2. State of the Art

Toe joints such as the proximal metatarsal phalangeal joint, the proximal most toe joint of the foot, may become damaged from injury, etc. and may then be replaced. As a toe joint is damaged and deteriorates, symptoms may include loss of propulsion, transfer lesions, metatarsalgia (pain and inflammation of the ball of the foot), gait alterations, pain, etc. Indicators for joint replacement include: hallux limitus, hallux rigidus, hallux abducto valgus, rheumatoid arthritis, osteoarthritis, previous surgery at the joint which is painful or which resulted in an instable joint, joint problems after a prior joint surgery, failed joint surgery, etc.

The interphalangeal joints and other joints of the toes may also become damaged, and it will be appreciated that the artificial joint of the present invention may also be applied to these toe joints as well. Specifically, the present invention can be used in the joints including, but not limited to the inter phalangeal joints of all lesser digits, as well as the metatarsal phalangeal joints of all lesser digits. It is appreciated that the fusion of these joints does not result in the same loss of mobility and the same degree of detriment to a patient as does the fusion of the proximal metatarsal phalangeal joint, but does result in some detrimental effects for the patient. For example, the second metatarsal phalangeal joint can develop Freiberg's infraction resulting in metatarsal head deformation and loss of cartilage. The treatments are generally limited following Freiberg's.

Furthermore, the invention is not restricted to the metatarsal phalangeal joint of the first digit and can be utilized to replace the inter-phalangeal joint of the first digit which too is often damaged secondary to cartilage loss and is often fused. As will be explained below, the present invention is suitable for both conditions as it allows resurfacing of the joint.

Currently, artificial metatarsal joints exist which are implanted by cutting off the ends of the bones which form the natural joint (typically the metatarsal phalangeal joint), reaming out the cut ends of the bones (the base of the proximal phalanx and the head of the metatarsal) to receive the stems of the artificial joint, and inserting the artificial joint. The prior art artificial joints place stress on the bone surrounding the joint, often resulting in destruction of the bone surrounding the joint and thus failure of the artificial joint. It is common for artificial toe joints to fail about five years after replacement. Once the joint has failed, the bone structure surrounding the joint (the cut end and hole into which the artificial joint has been inserted) has often degraded to where the joint must be fused together. It is easily appreciated that a fused toe joint is highly undesirable as it limits mobility, and may make it significantly harder for a person to accomplish daily tasks such as walking.

It is important to note that current joints generally cannot provide compensation for angular deviations at the first metatarsal phalangeal joint. Such deviations include, but are not limited to: hallux abductovalgus, inter phalageous angle, plantarflexed as well as dorsiflexed metatarsal head, intermetatarsal angles, and proximal articular set angle as well as the distal articular set angle. The advent of a total implant that can compensate for such deviations is very advantageous secondary to angular correction. These corrections will allow reduction of pain proximally in the foot as well as extend the life of the implant.

It is desirable that an artificial toe joint should achieve certain results. The artificial joint should be stable and provide stability to the patient, such as when standing and walking. The artificial joint should provide a pain free range of motion to the patient. The artificial joint should allow the patient to walk and move in a natural manner. It is desirable that installation of an artificial joint provide an increase in activity levels and an improvement in the lifestyle of the person. An artificial joint should provide long term success; promoting the strength of the surrounding bone and resisting deterioration of the resulting joint so as to minimize the need for the later fusing of the joint.

There is thus a need for an artificial toe joint which overcomes the limitations of available artificial toe joints. Specifically, there is a need for an artificial toe joint which has less affect on the bone structure around the joint. It is also desirable to provide an artificial joint which allows for angular deviation correction to reduce stress and strain proximally in the foot. It is also desirable to provide resurfacing of the existing anatomy which is low profile and anatomically similar to existing structures. Thus, there is a need for an artificial toe joint which provides greater long term success of the artificial joint and which replicates existing anatomical motion. There is also a need for an artificial toe joint which may be used in replacing a previously installed artificial toe joint which has failed to thereby eliminate the need to fuse the joint. There is a further need for an artificial toe joint which is easier to install. It will be appreciated that achieving any one of these will be an improvement in artificial toe joints, while achieving multiple of these ends would constitute a substantial improvement for patients.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide an improved artificial toe joint.

According to one aspect of the invention, an improved artificial toe joint is provided. More specifically, the joint of the present invention is particularly suited for a first metatarsal phalangeal joint replacement, but may be used for other toe joints as well. Ideally, artificial joints made according to the present invention can be used for the interphalangeal joints of the first digit, the interphalangeal joints of the lesser digits, as well as the metatarsal phalangeal joints of the lesser digits.

According to one aspect of the present invention, an artificial toe joint is provided which encases the ends of the bones adjacent the joint. By enclosing the ends of the bones adjacent the joint, the artificial joint results in a more stable structure and reduces the stress on the ends of the bone by distributing the stresses along the bone, promoting improved long term success for the artificial joint.

In accordance with another aspect of the present invention, a resurfacing technique is provided which is unlike any other on the current market. This resurfacing is accomplished through the advent of a low profile joint that contours the existing anatomical structures providing minimal bony disruption, placing the articular surface in alignment thus reducing any existing angular deviations, providing anatomical motion, and reducing pain. In addition it is important to note that current joints generally can not compensate for metatarsal length variations. The present invention may include a flexible articulating surface that can be varied in width to compensate for first ray length. When such variances are considered and addressed the resultant mobile and rectus first ray will provide for pain reduction both distally and proximally to the implanted surface.

According to another aspect of the present invention, enclosing the ends of the bone surrounding the artificial joint may allow the present artificial toe joint to be installed in place of previously installed artificial toe joints which have failed. Such an installation may eliminate the need to fuse the joint. Additionally, the artificial joint of the present invention makes possible the modification of existing fused joints.

These and other aspects of the present invention are realized in an artificial joint as shown and described in the following figures and related description.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments of the present invention are shown and described in reference to the numbered drawings wherein:

FIG. 1 shows a perspective view of a first metatarsal bone and a proximal phalangeal bone which comprise the first metatarsal phalangeal toe joint;

FIG. 2 shows the toe joint of FIG. 1 cut to receive a prior art artificial joint;

FIG. 3 shows a perspective view of the back side of one piece of an artificial joint of the present invention;

FIG. 4 shows the toe joint of FIG. 1 cut to receive the artificial joint of the present invention;

FIG. 5 shows the toe joint of FIG. 1 having the present artificial joint installed thereon;

FIG. 6 shows another view of the toe joint of FIG. 1 having an artificial joint of the present invention installed thereon;

FIG. 7 shows another view of the toe joint of FIG. 1 having the present artificial joint installed thereon;

FIG. 8A shows a perspective view of a metatarsal bone and proximal phalanx bone forming a toe joint;

FIG. 8B shows the bones shown in FIG. 8A having a dorsal cut formed on the metatarsal bone;

FIG. 8C shows the toe joint of FIGS. 8A and 8B and a template used for making cuts on the toe joint;

FIG. 9 shows a proximal phalanx bone artificial joint member and an implant in accordance with one aspect of the present invention;

FIG. 9A shows a cross-sectional view of the artificial joint member and implant of FIG. 9;

FIG. 10A shows a bit used for implant surface preparation; and

FIGS. 10B and 10C shows side views of the preparation of the metatarsal and proximal phalanx using the bit of FIG. 10A.

It will be appreciated that the drawings are illustrative and not limiting of the scope of the invention which is defined by the appended claims. The embodiments shown accomplish various aspects and objects of the invention. It is appreciated that it is not possible to clearly show each element and aspect of the invention in a single figure, and as such, multiple figures are presented to separately illustrate the various details of the invention in greater clarity.

DETAILED DESCRIPTION

The invention and accompanying drawings will now be discussed in reference to the numerals provided therein so as to enable one skilled in the art to practice the present invention. The drawings and descriptions are exemplary of various aspects of the invention and are not intended to narrow the scope of the appended claims.

Turning now to FIG. 1, a perspective view of the bones of the proximal toe joint (the metatarsal phalangeal joint) is shown. The innermost toe joint (closest to the foot) is shown. The joint includes a metatarsal bone 10 and a phalange bone 14. The metatarsal bone 10 includes a rounded end 18 which, together with a depression 22 in the phalange bone 14 and the associated cartilage and tissue, forms the joint. The replacement of the toe joint may be necessitated by damage to the bones 10, 14 or to the cartilage and tissues of the joint. (While described in context of the first metatarsal phalangeal joint, the same anatomical presentations exist throughout the lesser metatarsal phalangeal joints with the exception of size. Additionally, the inter-phalangeal joints also mirror somewhat the metatarsal phalangeal joints.)

FIG. 2 shows the bones 10, 14 of FIG. 1. The bones 10, 14 have been prepared for an artificial toe joint of the prior art. The ends of the bones 10, 14 have been cut flat as indicated at 26, 30. Additionally, holes 34, 38 have been formed in the ends of the bones 10, 14 to receive the artificial toe joint. The artificial joint has posts on both ends which are fused into the holes 34, 38 to attach the joint to the bones 10, 14. A flexible member, not shown, connects the posts to form the artificial toe joint and to allow movement of the phalange bone 14 relative to the metatarsal bone 10.

A problem with the prior art artificial joints is that the strength and structure of the bone is compromised by the artificial joint. The toe bones 10, 14 are fairly small, and their strength may be significantly compromised by drilling out the bones. The posts of the artificial joint combined with the hollowed out bones 10, 14 result in places of high stress and typically result in damage to the bones. Once the bone is damaged, it may be difficult to repair the damage and install another artificial joint. Thus, once an artificial joint fails, the bones 10, 14 must often be fused together.

FIG. 3 shows a perspective view of the back side of an artificial joint piece of the present invention. The artificial joint member 42 shown replaces the rounded end 18 of the metatarsal bone 10. The artificial joint member 42 is attached to the exterior of the bone 10 by providing appendages which extend around the bone, such as arms 46. One or more of the arms 46 may include holes 50 for receiving a pin or screw to further secure the artificial joint member 42 to the bone.

The process for placing the artificial toe joint will typically include the use of a pre-formed template system. The template will be placed intra articular and serve as a guide for shaping the head of the metatarsal as well as the base of the proximal phalanx. The template will serve as a guide for placement of the sagital saw blade, thus reducing surgical error and allowing for ease of placement of the joint. The template will cause the corresponding bony surface to minor the inside of the articulated resurfacing implant. The template system will vary in size to compensate for variance in bony girth. The template used will correlate numerically with the implant that will be placed, thus improving surgical success as well as implant longevity.

While the bones may be predrilled to receive posts in the artificial joint, it is believed that pre-drilling is not required, as the posts can be tapped into the bone with a mallet. The posts may vary in length, but remain relatively small to facilitate placement and securing of the implant.

A flexible member, discussed in more detail below, may be placed after the implant has been positioned. Once in place, the length of the first ray will be determined using removable and reusable guides. Once the width and type of flexible member has been determined, the actual flexible disk can be opened and placed on the metatarsal side of the joint. This will be placed using a tongue and groove system that can be modified. Following placement, the first digit can be placed through range of motion to ensure correction and placement suitability.

It has been found that it is preferable for the template system to produce a mirrored surface on the metatarsal (etc.) head to that of the implant. This can be done with minimal bone reconstruction and with the use of the previously described template system. Thus, the implant essentially becomes a resurfaced metatarsal head, functioning in the same manner as the original prior to damage.

The artificial joint member 42 may also include a small post or spike 54 to aid in securing the artificial joint member to the bone. The post or spike 54 is typically small compared to the size of the bone and does not compromise the strength of the bone. The post or spike 54 can help keep the artificial joint member 42 from sliding back and forth across the front of the bone.

The inside surfaces of the artificial joint member 42, as indicated at 58, may be made somewhat rough or porous, and may be coated with compounds which promote the adhesion of the bone to the artificial joint member. These compounds may be bone growth compounds. The artificial joint member 42 may thus be initially held in place by the post or spike 42 and pins or screws, and then may become further attached to the bone as the bone grows and affixes itself to the inside surface 58 of the artificial joint member.

The artificial joint is formed by the first artificial joint member 42 and a second artificial joint member (78 of FIGS. 5-7). The back side of artificial joint member 78 (which is attached to bone 14) is similar to that of artificial bone member 42, having arms 46 or the like for attachment to the sides of the bone 14, a post or spike 54, holes 50 for pins or screws, a compound for promoting adhesion to the bone, etc. Artificial joint member 42 is formed with a rounded end 62, similar to the rounded end 18 of bone 10. Artificial joint member 78 is formed with a recess similar to the recess 22 of bone 14. Thus, the artificial joint recreates the natural joint, promoting a natural motion and use of the joint.

Like the inside surfaces of the artificial joint member, the arms 46 may be coated with material, such as bone morphogenic protein, to facilitate attachment to the bone. In a preferred embodiment, the dorsal arm 46 may be porous and coated on both inside and outside surfaces with bone growth enhancing material.

FIG. 4 shows the toe bones 10, 14 of FIG. 1 as having been cut and prepared for an artificial joint of the present invention. The adjoining ends of the bones 10, 14 have been cut off as indicated at 66. Additionally, the top, bottom, or sides of the bones 10, 14 may be cut as indicated at 70 to provide sufficient room for the artificial joint member and to create sufficient attachment surfaces for the same. Additionally, a small hole or recess 74 may be formed in the ends of the bone 10, 14 to receive any post or spike (54 of FIG. 3) which may be utilized in the artificial joint members. It will be appreciated that the hole 74 may not be necessary if the post or spike 54 is not used, or is small enough and appropriately shaped to be simply pressed into the bone 10, 14. (It will be appreciated that other processes of bone preparation may be used as will be explained below).

FIG. 5 shows the first and second artificial joint members 42, 78 of the present invention attached to the toe bones 10, 14. The rounded end 62 disposed on the front or first side of the artificial joint member 42 is similar in shape and size as the end 18 of the natural bone 10. The arm 46 (or a collar, etc), extending from the back or second side hold the rounded end securely to the bone.

Artificial joint member 78 is formed with a recess 82 in the front or first side which is generally rounded and concave to receive the rounded end 62, and to be similar in shape and function to the recess 22 found naturally in bone 14. Arms 46 (or a collar, etc) extend from the back or second side to hold the second artificial toe joint member 78 to the bone.

Pins or screws 86 may be inserted through the holes 50 in the artificial joint members 42, 78 and into the bones 10, 14 to secure the artificial joint members. As has been discussed, the insides of the artificial joint members may be formed with a texture or coated with a bone growth promoter to stimulate the bones 10, 14 to adhere to the artificial joint members.

FIG. 6 shows an alternate configuration of the artificial joint of the present invention. The artificial joint members 42, 78 are similar to those of FIG. 5 but include additional arms 46. FIG. 5 shows one larger arm 46 at the top of the artificial joint members 43, 78. FIG. 6 shows additional arms 46 on the sides of the artificial joint members 42, 78, and may include additional holes 50 for pins or screws to secure the artificial joint members to the bones 10, 14. Other attachment means could also be used. The artificial joint members 42, 78 may also contain the other structures discussed with respect to FIGS. 3-5 which are not shown here for clarity.

FIG. 7 similarly shows an alternate configuration of an artificial joint of the present invention. The artificial joint members 42, 78 are formed with elongated side walls 90 which extend around a much larger portion of the bones 10, 14; such as extending around the tops and sides of the bones. The side walls 90 may form a collar which wraps around the end of the bone 10, 14. The artificial joint members 42, 78 may also be formed with arms 46 which extend further than the side walls 90, and may include one or more holes 50 for receiving pins or screws to affix the artificial joint members to the bone 10, 14. The artificial joint members 42, 78 also include the remaining structures shown in FIGS. 3-6 but which are not shown for clarity.

In viewing FIGS. 5-7, it can be appreciated that the number and relative size of arms 46 may be varied. Additionally, the use of side walls 90 which extend around a more substantial portion of the bones 10, 14 may be varied. Providing more arms or longer arms, or using side walls 90 may make the artificial joint members 42, 78 more difficult to install, or make each particular size of artificial joint member fit a more limited size of toe bones 10, 14. However, providing more or larger arms 46 or wide walls 90 may achieve a stronger bond to the bones 10, 14 and result in a stronger artificial joint which may be more durable and last longer.

Additionally, it may be possible to repair damaged bones 10, 14 by using more arms 46 or side walls 90. As has been mentioned, installation of prior art artificial joints may result in bone damage, either degradation of the interior of the bone or cracking or breaking of the bone, etc. The present invention provides artificial joint members which may be used to cover the damaged part of the bone and extend back to undamaged bone, and thereby provide an alternative to simply fusing the bones together. Additionally, some injuries to the joint and surrounding bones 10, 14 may break or crack the bones in a manner which prevents installation of a prior art artificial joint, such as where cracks or breaks do not leave sufficient strength in the bone for drilling out the bone and installing a prior art artificial joint.

The artificial joint of the present invention is thus advantageous for several reasons. The artificial joint does not require that the bones be drilled out for installation, and as such does not compromise the strength of the bone and result in high stresses in the area of the artificial joint. This may atypically result in an artificial joint which is stronger and which lasts longer than the prior art artificial joints. Additionally, because it extends around the exterior of the bones, the artificial joint of the present invention may be used in some cases to provide an artificial joint where bone damage may otherwise prevent installation of an artificial joint. Thus, the present joint may be installed when another artificial joint must be removed. The artificial joint members may be made to extend past the damaged bone and be connected to strong bone.

The present artificial joint is also advantageous as it better disperses energy through the bones by attachment to the harder outer surface of the bone and not the generally softer inner surface of the bone. The artificial joint also provides ease of surgical placement, as the prior art artificial joints require the proper alignment and drilling of a hole into the bone, where the inventive artificial joint is attached to and aligned by the exterior of the bone.

In addition to the above, the artificial toe joint of the present invention also provides the ability to correct angular deviations, first ray length, as well as providing a resurfacing technique for damaged bones in the toe. Each of these individually provides an improved artificial toe joint and collectively provide a substantial improvement in both technique and ultimate function of the joint.

Turning now to FIGS. 8A through 8C, there is shown the process for preparing metatarsal bone and proximal phalanx bone for installation of a joint made in accordance with the present invention. FIG. 8A shows a perspective view of the metatarsal bone 10 and the proximal phalanx 14. As mentioned regarding FIG. 1, the end of the metatarsal bone is generally convex, while the adjacent end of the proximal phalanx is somewhat concave.

The first step in the process is generally to make a dorsal cut, as indicated at 100 in FIG. 8B. The dorsal cut can provide both a surface for ultimate use by the implant, as well as a point of reference for use by a template 104, as shown in FIG. 8C. The template 104 is placed on the metatarsal bone 10 and held in place by a handle 108. An oscillating blade 112 is then advanced through holes 116 in the template 104 to shape the sides of the metatarsal bone.

FIG. 9 shows an exploded view of the proximal phalanx bone with an implant (artificial joint member 78) disposed thereon. As was mentioned previously, the artificial joint member will generally have a recess 82. The recess 82 may receive the convex surface of the implant on the metatarsal bone directly, or an cushion or insert 130, may be disposed between the two. If desired, the insert 130 can be provided with structure which assists in alignment of the implants of the artificial joint. More specifically, the insert 130 may include a concave face 134 configured to receive the convex rounded end 62 of the implant 42 (FIG. 5).

The insert 130 may be made from a variety of biocompatible materials, such as silicone, certain foams, plastics, etc. Additionally, it is preferred that the insert be flexible, both to provide some cushioning and to facilitate placement in the artificial joint member 78 as explained below.

The artificial joint member 78 may also include a generally flat bottomed recess 82 a with a detent 138 formed therein. The recess 82 a and detent 138 can help hold the insert 130 in place, thereby providing cushioning in the joint. The insert 130 also provides the advantage that different thicknesses of inserts can be used to adjust for metatarsal length variations. Thus, not only is the doctor able to create an artificial toe joint which more closely matches the normal anatomical structure, he or she can ensure the proper spacing between the metatarsal and proximal phalanx.

FIG. 9A shows a cross-sectional view of the artificial joint member 78, and the insert 130. The insert 130 may include a projection 142 disposed opposite the concave face 134 to help seat the insert in the recess 82 a of the artificial joint member 78. Additionally, the recess 82 a may include a generally annular rib 146 which is designed to project into a generally annular groove 150 in the side of the insert 130. (It will be appreciated that the annular rib 146 could be replaced with a projection and the annular groove 150 with a detent or other similar structures and FIG. 9A can be interpreted to show such structures.) This helps to hold the insert 130 in place and leaves a proximal phalanx with an end which more closely resembles the original anatomical structure.

FIG. 10A shows a bit 160 which can be used to improve implant surface preparation. Rather than using the template system described in FIGS. 8A-8C, the bit 160 is attached to a drill (not shown). The bit 160 is a concave oscillating bit and includes a notch 164 for the sesmoids.

Preferably the drill includes a cannulated shaft 168 with a K-wire 172 extending therefrom. The K-wire is used to align the bit 160 on either the metatarsal or proximal phalanx depending which piece is being worked. Thus, FIG. 10B shows the bit 160 being advanced on the metatarsal, and FIG. 10C shows the bit being advanced on the proximal phalanx.

The bit 160 allows the ends of the respective bones to be reshaped for improved mounting of the artificial joint members and allows a remaining bone structure which is more anatomically correct. Once the bit 160 has prepared the bones, the artificial joint members can be attached, thereby creating a new joint.

Because the artificial joint engages a much greater surface area of the bones, less stress is placed on the bones and the risk of further damage is decreased. Additionally, if the insert 130 were to fail for some reason, it can simply be replaced without further damage to the bones. This is in sharp contrast to the artificial toe joints of the present invention which generally result in fusion of the bones when they fail.

There is thus disclosed an improved artificial toe joint. It will be appreciated that numerous changes may be made to the present invention without departing from the scope of the claims. 

1. An artificial toe joint comprising: a first artificial joint member having a first side forming an articulation surface and a second side forming a bone attachment surface and having an attachment member extending from the perimeter edge of the second side in a direction away from the first side; a second artificial joint member having a first side forming an articulation surface and a second side forming a bone attachment surface and having an attachment member extending from the perimeter edge of the second side in a direction away from the first side; wherein the first side of the first artificial joint member and the first side of the second artificial joint member comprise generally complementary surfaces disposed adjacent one another to form a movable joint; and wherein the second side of the first artificial joint member and the second side of the second artificial joint member are attachable to first and second toe bones forming a toe joint which is to be replaced; wherein the adjoining ends of the first and second bones are resected to form end surfaces generally perpendicular to the longitudinal axis of the bone such that the first and second bones each comprise a top surface, a bottom surface, side surfaces, a resected end surface, and an interior core; wherein, when the first and second joint members are installed on said first and second bones, respectively, the second sides of the first and second joint members are attached to the resected ends of the first and second bones respectively, and the attachment members of both the first and second joint members are attached to the top surface or a side surface of the respective bone without penetrating the interior core of the bone.
 2. The artificial joint of claim 1, wherein the second side of the first artificial joint member, when installed, is attached to a metatarsal bone and the second side of the second artificial joint member, when installed, is attached to a phalange bone.
 3. The artificial joint of claim 2, wherein the attachment members of the first artificial joint member and the second artificial joint member comprise arms for attachment to the metatarsal and phalange bones.
 4. The artificial joint of claim 3, wherein the arms are configured for attachment to the tops of the metatarsal and phalange bones
 5. The artificial joint of claim 3, wherein the attachment members of the first artificial joint member and the second artificial joint member comprise a plurality of arms for attachment to the tops and the sides of the respective metatarsal and phalange bone.
 6. The artificial joint of claim 2, wherein the attachment members of the first artificial joint member and the second artificial joint member comprise side walls which extend around the top and the sides of the respective metatarsal and phalange bone.
 7. The artificial joint of claim 3, wherein the arms comprise holes formed therein and configured for receiving a pin or screw for attaching the first and second artificial joint members to the bones.
 8. The artificial joint of claim 2, wherein the second side of the first artificial joint member and the second side of the second artificial joint member comprise concave receptacles for receiving the resected ends of the bones.
 9. The artificial joint of claim 1, wherein the second side of the first artificial joint member and the second side of the second artificial joint member further comprise a small post or spike located in the receptacle and configured for engaging the core of the bones. 10.-12. (canceled)
 13. The artificial joint of claim 1, wherein the first side of the second artificial joint member comprises a recess configured for receiving an insert, and wherein said recess forms the articulation surface.
 14. The artificial joint of claim 13, further comprising an insert configured for disposition in said recess.
 15. The artificial joint of claim 14, wherein the first side of the second artificial joint member comprises a retaining member configured to hold the insert adjacent the second artificial joint member.
 16. The artificial joint of claim 15, wherein the retaining member comprises a detent in the second artificial joint member configured for receiving a projection on the insert.
 17. The artificial joint of claim 15, wherein the retaining member comprises a generally annular rib configured to nest in a generally annular groove on the insert.
 18. An artificial toe joint for attachment to a first bone and a second bone which are adjacent one another in a foot so as to form a toe joint, the bones each having a resected end forming an end surface and having an upper surface, a lower surface, and side surfaces, the artificial toe joint comprising: a first artificial joint member having a first side forming an articulation surface and a second side forming a bone attachment surface, and comprising an attachment structure extending from the edge of the second side; wherein, when the first joint member is attached to the first bone, the second side is attached to the bone end surface and the attachment structure is attached to the top surface or a side surface of the bone; a second artificial joint member having a first side forming an articulation surface and a second side forming a bone attachment surface, and comprising an attachment structure extending from the edge of the second side; and wherein, when the second joint member is attached to the second bone, the second side is attached to the bone end surface and the attachment structure is attached to the top surface or a side surface of the bone.
 19. The artificial toe joint of claim 18, wherein the second side of at least one of the first artificial toe joint member and the second artificial toe joint member further comprises a post extending therefrom.
 20. The artificial toe joint of claim 20, wherein the first artificial toe joint member is configured to substantially enclose the resected end of the first bone. 21-43. (canceled)
 44. The artificial toe joint of claim 18, wherein the first joint member attachment structure comprises a first arm attached to the top of the bone, a second arm attached to a first side of the bone and a third arm attached to a second side of the bone generally opposite the first side.
 45. The artificial toe joint of claim 18, wherein the first joint member attachment structure comprises a generally continuous flange extending around the top and both sides of the bone.
 46. The artificial joint of claim 19, wherein said post extends from the side a distance less than one fourth the distance by which the attachment structure extends form the second side.
 47. The artificial toe joint of claim 18, wherein the first joint member and second joint member attachment structures do not engage an interior of the bone.
 48. The artificial toe joint of claim 18, wherein the first joint member and second joint member attachment structures do not pass through the resected end of the bone.
 49. An artificial toe joint for installation onto a first toe bone and a second toe bone, the first bone having a longitudinal axis and an end generally perpendicular to said longitudinal axis, the second bone having a longitudinal axis and an end generally perpendicular to the end of the first bone, the joint comprising: a first joint component, the first joint component having a bone attachment surface, an articulation surface disposed opposite the bone mounting surface, and a mounting arm attached to the top edge of the bone attachment surface and extending generally perpendicularly to the bone attachment surface in a direction away from the articulation surface; a second joint component, the second joint component having a bone attachment surface, an articulation surface disposed opposite the bone mounting surface, and a mounting arm attached to the top edge of the bone attachment surface and extending generally perpendicular to the bone attachment surface in a direction away from the articulation surface; and wherein the second joint component articulation surface is disposed against the first joint component articulation surface to form an articulating toe joint.
 50. The artificial toe joint of claim 49, wherein the first joint component further comprises a collar attached to the edge of the bone attachment surface and wherein, when the first joint component is attached to the first bone, the collar extends around the exterior of the bone adjacent the end to enclose a portion of the bone.
 51. The artificial toe joint of claim 50, wherein the second joint component further comprises a collar attached to the edge of the bone attachment surface and wherein, when the second joint component is attached to the second bone, the collar extends around the exterior of the bone adjacent the end to enclose a portion of the bone.
 52. The artificial toe joint of claim 49, wherein the first and second bones have resected ends, and wherein the mounting arms of the first and second joint members do not pass through the resented end of the first and second bones, respectively.
 53. The artificial toe joint of claim 49, wherein the first joint component comprises a receptacle and has an insert disposed therein to form the articulation surface.
 54. The artificial toe joint of claim 49, wherein, when the first joint component is installed on the first bone, the bone attachment surface is attached to the end of the bone and the mounting arm is attached to a top exterior surface of the bone in a direction generally parallel to the longitudinal axis of said bone and wherein, when the second joint component is installed on the second bone, the bone attachment surface is attached to the end of the bone and the mounting arm is attached to a top exterior surface of the bone in a direction generally parallel to the longitudinal axis of said bone and the second joint component articulation surface is disposed against the first joint component articulation surface. 